Implantable medical lead having reduced dimension tubing transition
Lead body designs for forming a fluid tight seal between a multilumen tube and other portions of a lead body are provided. One lead body design has a multilumen tube having a first portion defining a first number of lumens and a second reduced dimension portion defining a second number of lumens, the second number of lumens being smaller than the first number of lumens. The reduced dimension portion is attached to a distal tip portion of the lead body, forming a fluid tight passageway through the multilumen tube to the distal tip portion. Also provided are methods for forming such multilumen tubes and incorporating such multilumen tubes into a lead body.
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This application is a continuation of U.S. application Ser. No. 12/534,114, filed Aug. 1, 2009, which claims the benefit of U.S. Provisional Application No. 61/089,330, filed Aug. 15, 2008, which are herein incorporated by reference in their entirety.
BACKGROUNDMedical leads typically have an elongate lead body that is used to deliver a therapy (e.g., one or more electrical pulses) to a location of interest within a patient. Many leads have one or more electrodes (e.g., ring electrodes or coil electrodes) disposed along the lead body. Some such leads also have a fixation member (e.g., an active fixation member) at the distal end of the lead body for fixing the lead body at a desired location within a patient's body. There is a need in the art for alternative designs and methods of construction for leads.
SUMMARYIn one embodiment of the invention, a medical lead comprises a multilumen tube having a distal end and a proximal end and a wall. The wall defines at least three lumens along a first longitudinal portion of the tube and less than three lumens along a second longitudinal portion of the tube. A first, continuous lumen extends through both the first and second portions and the wall is substantially continuous through both the first and second longitudinal portions. A proximal connector is disposed at the proximal end of the medical lead and the proximal connector is adapted to connect the lead to an implantable medical device. A fixation member is disposed on a distal end of the lead body and the fixation member has a fixation helix that is adapted to fix the lead at a site within a patient. A conductor member is disposed in the continuous lumen and electrically couples the proximal connector to the fixation member. The medical lead also has a distal tip portion, and the fixation member at least partially disposed within the distal tip portion. The second portion of the multilumen tube is connected with the distal tip portion, providing a fluid-tight passageway extending through the first and second portions of the multilumen tube and into the distal tip portion.
In another embodiment of the present invention, a medical lead comprises a multilumen tube defining a first number of lumens along a first longitudinal portion of the tube and a second number of lumens along a second longitudinal portion of the tube. The first number of lumens is larger than the second number of lumens. A continuous lumen extends through both the first and second portions and the wall is substantially continuous through both the first and second longitudinal portions. A fixation member is disposed on a distal end of the lead body, and the fixation member has a fixation helix that is adapted to fix the lead at a site within a patient. The medical lead also has a distal tip portion, and the fixation member at least partially disposed within the distal tip portion. A fluid tight seal is formed between the second portion of the multilumen tube and the distal tip portion, providing a fluid-tight passageway through the first and second portions of the multilumen tube, into the distal tip portion and to the fixation member.
In yet another embodiment of the present invention, a method of manufacturing a medical lead comprises providing a multilumen tube having a distal end and a proximal end and a first longitudinal axis, the tube defining a lumen that defines a second longitudinal axis that is non-coaxial with the first longitudinal axis. The method further comprises removing a first portion of a cross-section of the tube along a desired portion of the length of the tube while maintaining the lumen. The multilumen tube is rotated about the second longitudinal axis and a second portion of a cross-section of the tube is removed along the desired portion of the length of the tube. The multilumen tube is incorporating the tube into a lead.
While multiple embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes illustrative embodiments of the invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not restrictive.
While the invention is amenable to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and are described in detail below. The intention, however, is not to limit the invention to the particular embodiments described. On the contrary, the invention is intended to cover all modifications, equivalents, and alternatives falling within the scope of the invention as defined by the appended claims.
DETAILED DESCRIPTIONIn addition, the lead 1 has a proximal connector 11 disposed on the lead body proximal portion 7. The proximal connector 11 is configured to couple to a cardiac rhythm management device (not shown). The proximal connector 11 has a connector body 13 and a terminal pin 14 extending proximally from the connector body 13. In some embodiments, and as shown in
As shown in
Further, the lead 1 has one or more electrodes disposed thereon, for example two electrodes 17, 19 as shown in
In some embodiments, the fixation helix 9 is rotatably fixed with respect to the lead body 3. In some such embodiments, the lead body 3 is torquable, allowing the fixation helix 9 to be implanted in body tissue by bringing the fixation helix 9 into contact with body tissue and torquing the lead body 3 to provide torque to the fixation helix 9. As the fixation helix 9 is turned, the fixation helix 9 essentially screws into body tissue at the target location.
In other embodiments, and as best shown in
In some embodiments, the lead 1 is adapted to supply an electrical shock to a patient's heart via one or both of the electrodes 17, 19. In some such embodiments, the electrodes 17, 19 include a coil. In addition, in some embodiments the lead 1 is also adapted to provide a cardiac pacing signal and/or sense the electrical signals of a heart. For example, one or more of the fixation helix 9, a portion of the electrodes 17, 19, or optional additional electrodes such as ring electrodes (not shown) are configured to act as the poles of a pacing or sensing circuit. In some unipolar embodiments, one or more of the fixation helix 9, a portion of the electrodes 17, 19, and/or optional additional electrodes are adapted to act as one pole of the pace/sense circuit and the other pole of the pace/sense circuit is provided at a remote location within the patient's body or on the surface of the patient's body. In some bipolar embodiments, one or more of the fixation helix 9, a portion of the electrodes 17, 19, and/or optional additional electrodes are adapted to act as one pole of the pace/sense circuit and another of the fixation helix 9, a portion of the electrodes 17, 19 and/or optional additional electrodes are adapted to act as the other pole of the pace/sense circuit. For example, in some embodiments the fixation helix 9 is adapted to act as one pole of a bipolar pace/sense circuit and a portion of one or both of the electrodes 17, 19 and/or one or more optional additional ring electrodes are adapted to act as the other pole of the bipolar pace/sense circuit.
As shown in
In some embodiments, the first lumen 22 extends through the multilumen tube 21 from a proximal end to a distal end of the multilumen tube 21. As shown in
In addition, in some embodiments the multilumen tube 21 comprises a flexible and/or stretchable material, for example silicone or polyurethane or any other suitable material. As further discussed below, in some embodiments stretchable material allows the reduced dimension portion 23 to be stretched in order to place the reduced dimension portion 23 over another portion of the lead 1.
The lead body distal portion 5 also includes a distal tip portion 26 that includes a distal outer member 27 and an insert 28. In some embodiments, the distal outer member 27 is attached to the multilumen tube 21. As shown in
Further, the insert 28 is sized and configured to fit within, and is affixed to, the distal outer member 27. In some embodiments, a distal end 37 of the insert 28 is shaped and configured to fit around the distal end of the distal outer member 27, forming a distal leading edge of the lead body 3. As shown in
In addition, in some embodiments a distal portion of the distal outer member 27 has a reduced inner diameter relative to a proximal portion of the distal outer member 27. As shown in
In some embodiments, a fixation member 42 includes both the fixation helix 9 and a fixation helix base 43. The fixation helix base 43 is disposed within the insert 28, and the fixation helix base 43 has a fixation helix seating portion 45. In some embodiments, the seating portion 45 is a reduced dimension portion of the fixation helix base 43, facilitating the attachment of the fixation helix 9 to the fixation helix base 43 while still allowing the fixation member 42 as a whole to translate in and out of the insert 28.
As shown in
As shown in
In addition to electrically coupling to the fixation member, in some embodiments the conductor member 51 is also a torque transmission member, and the distal portion of the conductor member 51 is mechanically coupled to the fixation helix base 43. As discussed in more detail below, in some embodiments the conductor member 51 extends proximally to, and is mechanically coupled to, a rotatable portion of the terminal pin 14. The conductor member 51 transmits torque from a rotatable portion of the terminal pin 14 to the fixation member 42. As mentioned above, turning the fixation helix base 43 within the insert 28 causes the fixation member 42 as a whole to simultaneously rotate and move longitudinally, facilitating the implantation of the fixation helix 9. In some embodiments, the conductor member 51 is a coil member and the coil member is elongateable in order to accommodate the longitudinal movement of the fixation member 42.
As mentioned above, in some embodiments the fixation member 42 is electrically coupled to the conductor member 51. In some such embodiments, the fixation helix 9 is an active fixation helix. For example electric signals are transmitted between the fixation helix 9 and a portion of the terminal pin 14 via the conductor member 51. As such, the contact 15 on the terminal pin 14, the conductor member 51, the fixation helix base 43 and the fixation helix 9 are all electrically conductive such that a first electric pathway is formed between the contact 15 and the fixation helix 9.
In addition, as shown in
FIGS. 3 and 4A-4C show cross-sections of the multilumen tube 21 according to various embodiments of the present invention. It is noted that, although
In addition, other cross-sectional shapes are possible for the reduced dimension portion 23 and for the other reduced dimension portions described herein. For example, in some embodiments, material is removed from the multilumen tube along a single plane. In some embodiments the reduced dimension portion 23 and the other reduced dimension portions described herein define more than one lumen. In other embodiments, the reduced dimension portion 23 has no lumen extending therethrough (e.g., the lumens terminate at the reduced dimension portion). In addition, although embodiments described above generally refer to a multilumen tube, other embodiments in which the tube has a single lumen are also contemplated. In some such embodiments, the single lumen continues through the reduced dimension portion (the single lumen has a reduced thickness wall), while in other embodiments the reduced dimension portion does not contain the lumen (e.g., the lumen terminates at the reduced dimension portion and the reduced dimension portion has a solid cross-section).
As shown in
In addition, as shown in
In the embodiment shown in
As shown in
The connector body 13 has a proximal portion 71. In some embodiments, the connector body proximal portion 71 surrounds, and is affixed to, the outer body portion 65 of the terminal pin 14. In addition, one or more electrical contacts 16 are disposed on the connector body 13, for example embedded in the connector body 13. As shown in
In addition, as shown in
Similar to the reduced dimension portion 23, the reduced dimension portion 79 can also be stretched in order to be placed over a portion of the proximal connector 11. For example, as shown in
Further, as discussed above, the multilumen tube 21 defines a first lumen 22 through which the conductor member 51 extends and in some embodiments the conductor member 51 is rotatable with respect to the multilumen tube 21. The conductor member 51 extends proximally to the inner body portion 67 and is affixed to the inner body portion 67, which, as mentioned above, is rotatable with respect to the outer body portion 65 (and, as such, is rotatable with respect to the proximal connector 11 and the lead body proximal portion 7). As such, torque can be transmitted from the inner body portion 67 of the terminal pin 14 to the fixation helix 9 via the conductor member 51.
The fitting 91 also has an eyelet 97, which provides a point of connection for a conductor member, as best shown in
As described above, the multilumen tube 21 defines the first lumen 22 along with the second lumen 63. Extending through the first lumen 22 is the conductor member 51, while a second conductor member 101 extends through the second lumen 63.
Shown in
As shown in
Further, in embodiments where more than one electrode is disposed along the lead 1, more than one lumen is maintained through the fitting in order to provide a passageway for a conductor member to reach the distal electrode(s). As such, the reduced dimension portion 99 has any desired cross-sectional shape, and may define zero, one or more, two or more, or three or more, lumens.
Further, in some embodiments the conductors that extend from the electrodes 17, 19 to the ring contacts 16 (e.g., the second conductor member 101) are attached to the ring contacts 16 in a manner similar to that described with respect to
The embodiments above have been described with respect to leads that comprise shocking electrodes. In some embodiments, in addition to, or in place of, the shocking electrodes, the lead 1 has ring electrodes, and the ring electrodes are disposed along the lead body similar to the fitting 91 shown in
In another embodiment of the present invention, a method of manufacturing a lead includes providing a multilumen tube (e.g., any of the multilumen tubes described above) and removing a portion of a multilumen tube to form a reduced dimension portion, for example any of the reduced dimension portions mentioned above.
In a method of the present invention, a multilumen tube is provided, for example any of the multilumen tubes described above in which the one or more of the lumens is eccentrically disposed in the multilumen tube. For example, the first lumen 22, as shown best in
In some embodiments, the number, size and configuration of the longitudinal jig members are adapted to match with the number, size and configuration of the lumens of the multilumen tube. For example, the first longitudinal jig member 121 is sized and configured to fit within the first lumen 22 of the multilumen tube 21, the second longitudinal jig member 123 is sized and configured to fit within the second lumen 63, and the third longitudinal jig member 124 is sized and configured to fit within the third lumen 61.
The second head 125 has a bottom portion 127 and a top portion 129. In some embodiments, the top and bottom portions are openable with respect to one another, for example as disclosed in U.S. Pat. No. 7,271,364, filed Sep. 18, 2007, entitled “Laser Welding Fixture and Method,” which is herein incorporated by reference in its entirety. In some embodiments, one or more of the longitudinal jig members 121, 123, 124 extend to, or extend close to, the second head 125. In some other embodiments, the longitudinal jig members 121, 123, 124 extend to, and into, the second head 125. In some embodiments, the first and second heads 117, 125 are driven (e.g., by a motor) and they are coordinated such that they are rotated simultaneously at the same rate within the fixture 111.
A multilumen tube is fed over the jig 119 so that the longitudinal jig members 121, 123, 124 extend into the lumens of the multilumen tube. For example, the multilumen tube 21 is disposed over the jig 119 so that the first lumen 22 is disposed on jig member 121, the second lumen 63 is disposed on jig member 123 and the third lumen 61 is disposed on jig member 124. The jig member 121 is centered on the heads 117, 125. The multilumen tube extends through a channel (not show) in the second head 125 and, in some embodiments, through all or a portion of the second side 115.
In order to remove material from the multilumen tube, any suitable cutting or ablating apparatus may be used. For example, in some embodiments the cutting or ablation apparatus (not shown) is a physical ablation tool (e.g., a grinder) or a laser. In some embodiments, the cutting or ablation apparatus is positioned in order to ablate or cut material away from the multilumen tube along the longitudinal jig member 121 that is centered on the heads 117, 125. In some embodiments, the cutting or ablation apparatus moves within the fixture 111 in order to facilitate cutting or ablating along a desired length of the multilumen tube. In some embodiments, the cutting or ablating apparatus cuts or ablates along the multilumen tube, forming a generally flat surface along the multilumen tube (as shown in
In some embodiments in which the reduced dimension portion is formed along an intermediate portion of the multilumen tube (e.g., as shown in
In some embodiments, some of the leads described above can have the capability both to shock the heart and pace and/or sense the rhythm of the heart. For example, in some embodiments the lead 1 shown in
Various modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present invention. For example, while the embodiments described above refer to particular features, the scope of this invention also includes embodiments having different combinations of features and embodiments that do not include all of the described features. Accordingly, the scope of the present invention is intended to embrace all such alternatives, modifications, and variations as fall within the scope of the claims, together with all equivalents thereof.
Claims
1. A medical lead comprising:
- a multilumen tube having a distal end and a proximal end and a wall, the wall defining at least three lumens along a first longitudinal portion of the tube and less than three lumens along a second longitudinal portion of the tube, wherein a first, continuous lumen extends through both the first and second portions, wherein the wall is substantially continuous through both the first and second longitudinal portions;
- a proximal connector disposed at the proximal end of the medical lead, the proximal connector adapted to connect the lead to an implantable medical device;
- a fixation member disposed on a distal end of the lead body, the fixation member having a fixation helix that is adapted to fix the lead at a site within a patient;
- a conductor member disposed in the continuous lumen and electrically coupling the proximal connector to the fixation member; and
- a distal tip portion, the fixation member at least partially disposed within the distal tip portion;
- wherein the second portion of the multilumen tube is connected with the distal tip portion, providing a fluid-tight passageway extending through the first and second portions of the multilumen tube and into the distal tip portion.
2. The medical lead of claim 1, wherein the fixation member further has a fixation member base and the fixation helix is attached to a distal portion of the base and the conductor member is attached to a proximal portion of the base.
3. The medical lead of claim 1, wherein the distal tip portion has a distal outer member and a distal inner member disposed within the distal outer member, wherein a space is formed between an outer surface of a proximal portion of the distal inner member and the inner surface of the distal outer member, and wherein the second portion of the multilumen tube is disposed within the space and forms a fluid tight seal with the distal inner member.
4. The medical lead of claim 1, wherein the conductor member is a coiled torque transmission member and is affixed to the fixation member such that torque provided at a proximal portion of the conductor member is transmitted to the fixation member.
5. The medical lead of claim 1, wherein the distal tip portion has an inner surface with first threads formed thereon and the fixation member has an outer surface with second threads formed thereon, the threads mechanically interacting such that turning the fixation member causes the fixation member to translate longitudinally with respect to the distal tip portion.
6. The medical lead of claim 1, wherein the multilumen tube comprises a flexible material and wherein the second longitudinal portion of the multilumen tube is stretched to fit over a portion of the distal tip portion.
7. The medical lead of claim 6, wherein the material is silicone.
8. The medical lead of claim 1, wherein the proximal connector has a connector body and a terminal pin, wherein a portion of the terminal pin is rotatable with respect to the connector body and wherein a proximal end of the conductor member is coupled to the terminal pin such that torque imparted on the terminal pin is transmitted to through the conductor member to the fixation member.
9. The medical lead of claim 1, wherein the second longitudinal portion of the multilumen tube defines a single lumen.
10. The medical lead of claim 1, wherein the wall of the multilumen tube is continuous from the distal end to the proximal end of the multilumen tube.
11. A medical lead comprising:
- a multilumen tube defining a first number of lumens along a first longitudinal portion of the tube and a second number of lumens along a second longitudinal portion of the tube, wherein the first number of lumens is larger than the second number of lumens, wherein a continuous lumen extends through both the first and second portions and wherein the wall is substantially continuous through both the first and second longitudinal portions;
- a fixation member disposed on a distal end of the lead body, the fixation member having a fixation helix that is adapted to fix the lead at a site within a patient; and
- a distal tip portion, the fixation member at least partially disposed within the distal tip portion;
- wherein a fluid tight seal is formed between the second portion of the multilumen tube and the distal tip portion, providing a fluid-tight passageway through the first and second portions of the multilumen tube, into the distal tip portion and to the fixation member.
12. The medical lead of claim 11, wherein the fixation member has a fixation member base and the fixation helix is attached to, and extends distally from, the fixation member base.
13. The medical lead of claim 11, further comprising a conductor member that is disposed in the continuous lumen, wherein a distal portion of the conductor member is electrically coupled to the fixation member.
14. The medical lead of claim 11, further comprising a conductor member that is disposed in the continuous lumen, wherein a distal portion of the conductor member is electrically and mechanically coupled to the fixation member such that torque provided at a proximal portion of the conductor member is transmitted to the fixation member.
15. The medical lead of claim 11, wherein the wall of the multilumen tube is continuous from the distal end to the proximal end of the multilumen tube.
16. The medical lead of claim 11, wherein the multilumen tube comprises a flexible material and wherein the second longitudinal portion of the multilumen tube is stretched to fit over a portion of the distal tip portion.
17. A medical lead comprising:
- a multilumen tube having a distal end and a proximal end and a wall, the wall defining a first number of lumens along a first longitudinal portion of the tube and a second number of lumens along a second longitudinal portion of the tube, wherein a first, continuous lumen extends through both the first and second portions, wherein the wall is substantially continuous through both the first and second longitudinal portions and wherein the first number of lumens is greater than the second number of lumens;
- a proximal connector disposed at the proximal end of the medical lead, the proximal connector adapted to connect the lead to an implantable medical device;
- a fixation member disposed on a distal end of the lead body, the fixation member having a fixation helix that is adapted to fix the lead at a site within a patient;
- a conductor member disposed in the continuous lumen and electrically coupling the proximal connector to the fixation member; and
- a distal tip portion, the fixation member at least partially disposed within the distal tip portion;
- wherein the second portion of the multilumen tube is connected with the distal tip portion, providing a fluid-tight passageway extending through the first and second portions of the multilumen tube and into the distal tip portion.
18. The medical lead of claim 17, wherein the distal tip portion has a distal outer member and a distal inner member disposed within the distal outer member, wherein a space is formed between an outer surface of a proximal portion of the distal inner member and the inner surface of the distal outer member, and wherein the second portion of the multilumen tube is disposed within the space and forms a fluid tight seal with the distal inner member.
19. The medical lead of claim 16, wherein the multilumen tube comprises a flexible material and wherein the second longitudinal portion of the multilumen tube is stretched to fit over a portion of the distal tip portion.
20. The medical lead of claim 19, wherein the material is silicone.
Type: Grant
Filed: Jun 18, 2012
Date of Patent: May 14, 2013
Patent Publication Number: 20120253444
Assignee: Cardiac Pacemakers, Inc. (St. Paul, MN)
Inventors: Devon N. Arnholt (Shoreview, MN), Douglas D. Pagoria (Forest Lake, MN), Raymond D. Gessler, III (Roberts, WI), Duane T. Meyer (St. Paul, MN)
Primary Examiner: George Manuel
Assistant Examiner: Robert N Wieland
Application Number: 13/526,071
International Classification: A61N 1/00 (20060101);